Abstract
Guar (Cyamopsis tetregonoloba (L.) may be grown when soil temperatures are potentially high enough at the time of planting to inhibit nodulation and N2 fixation. An experiment was conducted using controlled conditions to determine the influence of high root temperature on growth and N2 fixation of guar. The experiment included two strains of rhizobia, two varieties of guar, two mineral N treatments, and root temperatures of 34, 37, and 40°C. Plants were grown for 44 days. The root temperature of 40°C reduced N fixation by at least 80% and nodule weight by more than 50%. Significant interactions occurred between most factors in influencing nodulation, N2 fixation and dry matter production. Guar, nodulated by rhizobial strain GAR022-1 and fully dependent on N2 fixation or provided with starter mineral N (25 mg pot−1), was not influenced by the root temperature of 37°C as compared to 34°C. Nodulation and N2 fixation by strain 32H1 was reduced by at least 40% when no starter mineral N was provided and the root temperature was 37°C. Providing starter mineral N to one variety of guar doubled the quantity of N2 fixed by strain 32H1 at both 34 and 37°C but N2 fixation was lower at the higher root temperature. It appears that root temperatures between 37° and 40°C bracketed the critical root temperature for N2 fixation by nodulated guar and that the critical root temperature for guar dependent on mineral N was above 40°C.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
BureshR J, AustinE R and CraswellE T 1982 Analytical methods in 15N-research. Fert. Res. 3, 37–62.
DugasW 1964 Agrolimatic atlas of Texas. Part 7: Soil Temperatures. MP-1552. Tex. Agric. Exp. Sta., College Stations, TX.
EvansH J, KochB and KlucasR 1972 Preparation of nitrogenase from nodules and separation into components. Methods Enzymol. 24, 470–476.
GerikT J, StaffordR E, NorrisM J and KisselD E 1983 An assessment of guar production potential in central Texas. MP-1536. Tex Agric. Exp. Sta., College Station, TX.
Hernandez-ArmentaR, WienW C and EagleshamA R J 1989 Carbohydrate partitioning and nodule function in common bean after heat stress. Crop Sci. 29, 1292–1297.
Jones O R and Johnson W C 1983 Cropping practices: Southern great plains. In Dryland Agriculture. Eds. H E Dregne and W O Willis. Agronomy 23, 365–395.
LaFavreA K and EagleshamA J K 1987 Effects of high temperatures and starter nitrogen on the growth and nodulation of soybean. Crop Sci. 27, 742–745.
MunevarF and WollumA G 1982 Response of soybean plants to high root temperatures as affected by plant cultivar and Rhizobium strain. Agron. J. 74, 138–142.
MunnsD N 1971 Mineral nutrition and the legume symbiosis. In Eds. R W FHardy and A HGibson. A Treatise on Dinitrogen Fixation. Section IV. pp 353–391. Wiley, New York.
NelsonD W and SommersL E 1980 Total nitrogen analysis of soil and plant material. J. Assoc. Off. Anal. Chem. 4, 770–778.
PihaM I and MunnsD N 1987 Sensitivity of the common bean (Phaseolus vulgarious L.) symbiosis to high soil temperature. Plant and Soil 98, 183–194.
RainbirdR M, AtkinsC A and PateJ S 1983 Effect of temperature on nitrogenase functioning in cowpea nodules. Plant Physiol. 73, 392–394.
VinizkyI and RayD T 1988 Germination of guar seed under salt and temperatures stress. Am. Soc. Hort. Sci. J. 113, 437–440.
Weaver R W and Frederick L R 1982 Rhizobium In Methods of Soil Analysis. Eds. A L Page, R H Miller and D R Keeney. Part 2: Chemical and Microbiological Properties. 2nd ed. Agronomy 9, 1043–1070.
WhistlerR L and HymowitzT 1979 Guar: Agronomy, Production, Industrial Use, and Nutrition. Purdue Univ. Press. West Lafayette, IN.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Arayangkcon, T., Schomberg, H.H. & Weaver, R.W. Nodulation and N2 fixation of guar at high root temperature. Plant Soil 126, 209–213 (1990). https://doi.org/10.1007/BF00012824
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00012824